Courses are available in a broad range of academic subjects and technical topics. Students may enroll in a single course or rely on a series of courses to help them gain in-depth knowledge about a concept that interests them. Since courses vary in length based on many different factors, it takes varying times for students to complete them.
What are courses in biotechnology? Technology is important for improving quality of life in populations around the globe. Biotechnology relies on biological processes to achieve technological advancements and improve scientific methods. Those who enroll in biotechnology courses ordinarily learn about technology, biology, life sciences, engineering and other related topics. Students may also take specific courses, such a pharmaceutical biotechnology or nanotechnology, depending on their areas of interest. Prior to completing a course, program participants often complete important projects, write significant papers or participate in internships.
When students are learning about biotechnology as course attendees, they usually develop the competencies they need for personal and professional success. Often, program participants learn to analyze problems, think critically and manage complex projects.
The tuition and fees that course administrators charge biotechnology participants depend on many different factors, such as the program’s location and the course’s duration. Prior to agreeing to matriculate, many students choose to discuss total costs with school officials.
Receiving a course certificate in biotechnology typically equips students with the knowledge, training and skills they need to apply for several entry-level positions. Some graduates choose to work as research assistants, project planners, program designers or engineers. Others use their certificates to apply for promotions to facility managers, hospital directors, chief executive officers or executive directors. Meanwhile, some decide to stay in academia, choosing to become professors, researchers or outreach directors.
Students enroll in biotechnology courses through universities, colleges, online forums and correspondence programs. For more information, search or your program below and contact directly the admission office of the school of your choice by filling in the lead form.
At the end of the course, participants will have a conceptual and practical framework on biotechnological products, the clinical and chemical-biological aspects involved, as well as the basics of biocomparability and the corresponding studies. [+]
Duration 48 hoursGeneral purpose:
At the end of the course, participants will have a conceptual and practical framework on biotechnological products, the clinical and chemical-biological aspects involved, as well as the basics of biocomparability and the corresponding studies.Benefit:
A thorough review and update of the state of the art of biotechnological medicines, as well as aspects related to biocomparability, will be carried out by experts in the area with experience in industry and academia. The expected achievements are that the participants know the opportunity areas and the challenges of the biotechnology market, as well as the recently issued regulatory framework to generate quality bioproducts under a clinical and safety approach. At the end of the seminar, each participant will have a broader and topical view on the subject, which will positively impact their daily work, whether in the industrial, regulatory or academic area. Finally, after the experience in the program proposed here, attendees will have knowledge in the current international regulatory framework and our country, which will open a broad landscape for innovation in bioproducts for pharmacological purposes.... [-]
The current e-learning programme focuses on the basic applications of nanotechnology in Health Sciences, in clinical and research level. [+]
Nanotechnology is a multidisciplinary field and its use in the area of Health Sciences has led to innovative applications in diagnosis and treatment of living beings as well as in agricultural process. The current e-learning programme focuses on the basic applications of nanotechnology in Health Sciences, in clinical and research level.
The present programme provides a detailed description concerning the types of nanotools used in Health Sciences, the mechanism of their action, the route and the behaviour of each nanotool inside a biological system.
Recent advances in nanotechnology offer the potential for early detection of several diseases as well increased therapeutic efficacy. In this context, the programme gives a thorough overview of nanoparticles current applications in diagnosis (including MRI, CT, PET, SPECT and Biophotonic modalities), therapy (including radiotherapy, treatment with radionuclides, photodynamic and photothermal therapy) and theranostics.... [-]
Approaches for targeted drug delivery and advanced nanotherapeutics. Nanomedicine is a combination of nanotechnology and medicine. It provides new direction in medical diagnosis, monitoring and treatment at the level of single molecules or molecular assemblies at the “nano” scale. [+]
Nanomedicine is a combination of nanotechnology and medicine. It provides new direction in medical diagnosis, monitoring and treatment at the level of single molecules or molecular assemblies at the “nano” scale. Additionally, continuing improvement in the pharmacological and therapeutic properties of drugs is driving the revolution in novel drug delivery systems.
This unique and innovating online course platform focuses mainly on the applications of nanotechnology to drug delivery and highlights several areas of opportunity where current and emerging nanotechnologies could enable novel classes of therapeutics.... [-]